Tethers for airborne wind turbines

What is claimed is: 1. A tether comprising: a core; a plurality of electrical conductors wound around the core, wherein the plurality of electrical conductors comprises: a first group of electrical conductors defining a first electrical path, wherein the first group of electrical conductors is located around a first portion of an outer surface of the core, such that a cross-section of the first group of electrical conductors defines a first arc around the first portion of the outer surface, wherein the first portion of the outer surface comprises a first half of a circumference of the core, and a second group of electrical conductors defining a second electrical path that is different from the first electrical path, wherein the second group of electrical conductors is located around a second portion of the outer surface of the core, such that a cross-section of the second group of electrical conductors defines a second arc around the second portion of the outer surface, wherein the second portion of the outer surface comprises a second half of the circumference of the core; and a jacket surrounding the plurality of electrical conductors. 2. The tether of claim 1 , wherein the core comprises an axial rod. 3. The tether of claim 1 , wherein the axial rod comprises a pultruded fiber rod. 4. The tether of claim 1 , wherein the core comprises a plurality of core elements. 5. The tether of claim 1 , wherein at least one electrical conductor of the plurality of electrical conductors comprises: an electrical conducting element; and an insulating layer that surrounds the electrical conducting element. 6. The tether of claim 1 further comprising a compliant layer surrounding the core, wherein the plurality of electrical conductors is wound around the compliant layer. 7. The tether of claim 6 , wherein the compliant layer comprises one or more separators located between the first group of electrical conductors and the second group of electrical conductors. 8. The tether of claim 6 , wherein the plurality of electrical conductors is wound around the compliant layer, such that (i) first interstices are located between adjacent electrical conductors and the compliant layer and (ii) second interstices are located between adjacent electrical conductors and the jacket, and wherein the tether further comprises a fill material located between the compliant layer and jacket, such that the fill material fills the first interstices and second interstices. 9. The tether of claim 6 , wherein the plurality of electrical conductors is wound around the compliant layer, such that (i) first interstices are located between adjacent electrical conductors and the compliant layer and (ii) second interstices are located between adjacent electrical conductors and the jacket, and wherein the jacket surrounds the plurality of electrical conductors, such that the jacket fills the second interstices. 10. The tether of claim 1 , wherein the first group of electrical conductors is configured to carry a first phase of electrical power, and wherein the second group of electrical conductors is configured to carry a second phase of electrical power that is different from the first phase of electrical power. 11. The tether of claim 1 , wherein the first group of electrical conductors is configured to operate at a first potential, and wherein the second group of electrical conductors is configured to operate at a second potential that is different from the first potential. 12. The tether of claim 1 further comprising one or more separators located between the first group of electrical conductors and the second group of electrical conductors. 13. The tether of claim 1 , wherein the jacket comprises an outer surface that comprises a plurality of drag-affecting surface features. 14. A tether comprising: a core comprising an axial rod; a compliant layer surrounding the core; a plurality of electrical conductors wound around the compliant layer, wherein each electrical conductor of the plurality of electrical conductors comprises an electrical conducting element and an insulating layer that surrounds the electrical conducting element, and wherein the plurality of electrical conductors comprises: a first group of electrical conductors defining a first electrical path, wherein the first group of electrical conductors is located along a first portion of an outer surface of the compliant layer, such that a cross-section of the first group of electrical conductors defines a first arc along the first portion of the outer surface, wherein the first portion of the outer surface comprises a first half of a circumference of the compliant layer, and a second group of electrical conductors defining a second electrical path that is different from the first electrical path, wherein the second group of electrical conductors is located along a second portion of the outer surface of the compliant layer, such that a cross-section of the second group of electrical conductors defines a second arc along the second portion of the outer surface, wherein the second portion of the outer surface comprises a second half of the circumference of the compliant layer; one or more separators located between the first group of electrical conductors and the second group of electrical conductors; and a jacket surrounding the plurality of electrical conductors. 15. A tether comprising: a plurality of core elements; a first insulating layer surrounding the plurality of core elements; a first semi-conducting layer surrounding the first insulating layer; a first plurality of electrical conductors located around the first conducting layer, wherein the first plurality of electrical conductors defines a first electrical path; a second semi-conducting layer surrounding the first plurality of electrical conductors; a second insulating layer surrounding the second semi-conducting layer; a third semi-conducting layer surrounding the second insulating layer; a second plurality of electrical conductors located around the third semi-conducting layer, wherein the second plurality of electrical conductors defines a second electrical path that is different from the first electrical path; a fourth semi-conducting layer surrounding the second plurality of electrical conductors; a third insulating layer surrounding the fourth semi-conducting layer; a plurality of strength elements located around the third insulating layer; and a jacket surrounding the plurality of strength elements.